Q1:
The first step in preventing osteoporosis is to determine whether you are at risk or high risk for developing the bone condition. Risk factors for osteoporosis include, Advanced age, Family and personal history, Race, Body type.
The second step in preventing osteoporosis is to get an assessment of bone mass. A bone density test (also termed "bone mineral density test" or "BMD test").
Q2:
Detection of daily activities and sports with wearable sensors in controlled and uncontrolled conditions
Integration of devices in a wireless sensor network for an E-health application
A review of accelerometry-based motion detectors for physical activity monitoring
Sousveillance: Inventing and Using Wearable Computing Devices for Data Collection in Surveillance Environments.
Q3:
This answer presents findings about how innovative equipment like emerging radio frequency (RF) remote sensing and actuating technology that can improve sports safety by warning or alerting players-on-foot and equipment operators in a pro-active real-time mode once equipment gets too close in proximity to unknown or other equipment. that examined risk factor modification (smoking cessation and weight loss), of training on equipment. Etc innovation equipment are extremely important for sports men.
Q4:
kinesiology can lead to a number of careers in a wide range the fields such as education, fitness and recreation, sports management, medicine, physical therapy, and nutrition. Each profession will definitely benefit from biomechanics.
The most common method for improving performance in many sports is to improve an athlete’s technique. This is highlighted here as one motivation for studying biomechanics, and it is probably what you thought of when asked how a biomechanist goes about trying to improve an athlete’s performance.
The application of biomechanics to improve technique may occur in two ways: Teachers and coaches may use their knowledge of mechanics to correct actions of a student or athlete in order to improve the execution of a skill, or a biomechanics researcher may discover a new and more effective technique for performing a sport skill. In the first instance, teachers and coaches use qualitative biomechanical analysis methods in their everyday teaching and coaching to effect changes in technique. In the second instance, a biomechanics researcher uses quantitative biomechanical analysis methods to discover new techniques, which then must be communicated to the teachers and coaches who will implement them.